Drilling down further, I am pleased to present Electro-physiology and related data generated by Aruna and collaborators: hN2 Cells-Electro Phys Data Supplement

hN2-Whole Cell Voltage Clamp

Figure. hN2 cells can produce inward currents that generate action potentials. (A) Isolated hN2 with significant neurite growth 1 week  after plating . This cell was subjected to whole cell voltage clamp utilizing a potassium gluconate based intracellular solution. (B) Voltage gated inward and outward currents were elicited from this cell with depolarizing voltage steps. (C) Inward currents from another cell (potassium gluconate intracellular) were abolished by local application of 1 µM tetrodotoxin (red trace) while outward currents remained. Inward current recovered as TTX washed out of the region (green trace). (D) A different cell which exhibited voltage activated inward currents that inactivated in response to a 50 ms prepulse at different membrane potentials. The experiment was done 27 days after the removal of bFGF. A cesium gluconate based intracellular solution was used for this experiment to block outward potassium currents. The membrane potential for half maximal inactivation by standard Boltzman fitting (red line) was -40.1 mV with a slope of 4.7. (E) Recovery from fast inactivation utilizing a paired pulse protocol in the same cell as C. The single exponential time constant for recovery of inactivation was 1.7 ms (red line). (F) A different cell which elicited an overshooting action potential upon current injection under whole cell current clamp utilizing a potassium gluconate based intracellular solution. Inset: Response of the same cell under voltage clamp to a change in membrane potential from -80 mV to -10 mV elicited a peak current of 457 pA. Scale bars for inset: 5 ms, 0.2 nA.